DE4326375A1 - Electrostatic attraction notepad system - Google Patents

Description

The invention relates to an electrostatic attraction Notepad system for attracting objects using a Coulomb force to attract these objects to the To keep note board system in detail electrostatic attraction notice board system, in which is prevented that the attraction layer in their Function deteriorated.

A well-known electrostatic attraction notice board system for Attract objects such as leaves based on a coulomb force and around these sheets on the attraction notice board system to hold has an attraction layer, which consists of a layered dielectric material and a pair of there are electrodes which are electrically separated from one another in a layered structure on the back of the Attraction layer are formed. With this conventional electrostatic attraction notepad system is the pair of Electrodes connected to a DC power source, where the coulomb force is used to place an object on the Tighten and hold the surface of the attraction layer.

It has been found in practice that in the event that when using such an electrostatic attraction Notepad system the objects on the long time Front surface of the attraction layer (1 to 2 Years), the attraction layer is oxidized and so in its Function deteriorated. This mechanism of Functional deterioration is explained below.

For example, if a DC voltage of 1 to 2 kV is applied to the Electrodes are applied, which in a laminated structure the back of the one made of a dielectric material Are formed, creates the applied Voltage is an electric field, which is a Polarization charge generated in the attraction layer so that electric charges with opposite polarity in the  Relationship to the electrodes on the back of the Attraction layer (i.e. the area on the Side of the electrodes) while on the front surface of the Attraction layer electric charges are generated, the Polarities the same as that of the respective electrodes are. If an object like a sheet of paper or a slide under the above conditions on the front surface of the Attraction layer is placed, with electrical charges on of the object area on the attraction layer side electrical charges are in their polarity reversed aligned to the electrical charges that are on the front surface of the attraction layer. This allows the object to be attracted and on the front surface the attraction layer is held, which by a Coulomb force is realized.

In the state in which an object is attracted and on the Front surface of the attraction layer as described above is held, the front surface of the Layer of attraction because of an electrical discharge between the Front surface of the attraction layer and the surface of the Object takes place, whereby this oxidation also by is accelerated that the electrical conductivity of the Front surface of the attraction layer by penetration of Water is increased. Therefore, if the electrostatic attraction Notice board system in the above state of attraction left for a long period of time, an increasing occurs Oxidation of the attraction layer and leads to a Damage to the attraction layer, which leads to a sufficient attraction is no longer guaranteed.

To overcome the above problem with conventional systems, the invention aims to provide an electrostatic attraction Notepad system for attracting an object to be held on it by means of a coulomb force, the attraction Notepad system is capable of worsening the Prevent attraction layer due to oxidation and so to always ensure a satisfactory attraction.  

This object is achieved by an electrostatic Attraction notice board system solved, which is provided with:

• (a) an attraction layer consisting of a thin-walled, dielectric substance;
• (b) a coating material layer which is on a Front surface of the attraction layer is formed such that it covers the front surface, the Coating material layer only a small one Permeability to water and good shielding properties against has oxygen penetration; and
• (c) at least one pair of electrodes which are on the other side of the attraction layer are arranged such that the electrodes are electrically separated from one another and together form a lamellar structure to form a to generate an electric field and thus a polarization charge to evoke in the attraction layer;

being an object that is on the front of the Attraction layer has been placed over between them hard coating material layer by means of a Coulomb force can be tightened and held.

The attraction layer preferably consists of one or more individual layers which are formed from a specific type of plastic or a mixture of two or more types of plastic, the individual types of plastic from a group consisting of polyester, polyvinyl chloride, acrylic, polycarbonate, polyacetal, phenol and Epoxy resin are selected. Specifically, in the event that the attraction layer is composed of two or more individual layers, all of the individual layers can be produced from the same type of plastic (or the same mixture of plastic types) or alternatively consist of different types of plastic (or mixtures of plastic types). According to a further alternative, some of the individual layers are made of the same type of plastic (or mixture of types of plastic), while others are different. It is possible to disperse one or more conductive materials in one type of plastic or in the mixture of plastic types consisting of two or more types of plastic, the conductive material being able to be selected from the following group: carbon black; Gold; Silver; Tin; Zinc oxide; conductive oxides; and conductive ionic resins. The above conductive material (s) are in the form of small particles when dispersed. The attraction layer preferably has a volume resistance of 10 ¹¹ to 10 ¹⁴ Ωcm.

Similarly, according to a preferred embodiment the coating material layer from one or more Individual layers made of a certain type of plastic or one Mixture of plastic types, whereby the plastic type (s) selected from the following group: double-sided Polyester; Nylon 6, acrylonitrile copolymer; Vinylidene chloride Methyl acrylate copolymer; Polyvinyl chloride; Polybutylene terephthalate; Ethylene vinyl alcohol copolymer; With drawn polypropylene coated polyvinylidene chloride; With drawn nylon coated polyvinylidene chloride and with Polyester coated polyvinylidene chloride. If the Coating material layer consists of two or more layers, can all layers of the same type of plastic (or a mixture of plastic types) or alternatively different types of plastic (or Mixtures of plastic types). According to one Another alternative are some of the individual layers from the made of the same type of plastic (from the same Mix of plastic types), while others are different.

The coating material layer preferably has a volume resistance of 10 ¹⁰ Ω cm or more and a thickness of 5 to 50 µm.

An insulating layer is preferably arranged on one side of the pair of electrodes, this side being the opposite rear side with respect to the side facing the attraction layer. The insulating layer is preferably formed from an insulating adhesive layer and a coating material layer therefor has a volume resistance of 10 ¹⁴ Ω cm or more.

In such an attraction notice board system, one has Surface of the attraction layer with a coating material layer low water permeability and high Oxygen shielding ability, even if the system is operated such that an object over a long Period on the area of the attraction layer through the Coating material layer is drawn through, a Deterioration of the attraction layer due to its oxidation can be prevented because of that on the surface oxygen present in the attraction layer and penetration Oxidation caused by water vapor can be prevented can.

The coating material layer according to the invention has a volume resistance of 10 ¹⁰ Ω cm or more and a thickness of 5 to 50 µm, so that even in the case that a coating material layer is arranged on a surface of the attraction layer, a polarization charge macroscopically caused by an electric field prevails over the entire attraction layer and coating material layer, as a result of which a sufficient attraction force can be exerted on the object for holding it.

Other objects and advantages of the invention will be apparent from the detailed description that follows. The invention is explained below on the basis of a preferred exemplary embodiment with reference to the drawing, in which FIGS . 1 to 4 show an exemplary embodiment of an electrostatic attraction notice board system, in particular:

Fig. 1 shows an exploded perspective view;

Figure 2 shows a partial top view;

Fig. 3 shows a schematic partial section; and

Fig. 4 shows a perspective view of the electrostatic attraction notice board system in the ready state.

An electrostatic attraction notice board system 1 according to the shown embodiment has an attraction layer 2 , a pair of comb-shaped electrodes 3 formed of positive and negative electrodes in a layered shape on the back of the attraction layer 2 , and an insulating adhesive layer 4 which is on the same Side of the comb-toothed electrodes 3 is arranged, which is the opposite side with respect to the side adjacent to the attraction layer 2 . On the front surface of the attraction layer 2 , a coating material layer 5 is arranged, which consists of a single layer, and an object 6 such as a paper sheet is held and attracted by means of coulombic forces on the front side of the attraction layer 2 , the coating material layer 5 lying between them.

The attraction layer 2 is made of a plastic material which contains finely divided small material particles therein. The aforementioned plastic material can be polyester, polyvinyl chloride, acrylic, polycarbonate, polyacetal, phenol and epoxy resin. The finely divided material particles can be selected from a group of carbon black, gold, silver, tin, zinc oxide, conductive oxides and conductive ionic resins. The attraction layer 2 has a volume resistance of 10 ¹¹ to 10 ¹⁴ Ω cm and has a thickness of about 200 to 1000 microns.

The pair of comb-tine electrodes 3 are made by screen printing with silver ink or conductive carbon ink, or alternatively by etching copper foil, and are designed such that oppositely oriented comb-tine sections are arranged in an alternating interlocking position, as shown in Figs. 1 and 2. Each connection is connected to a direct current power source 7 with a voltage of 2 Kv by means of a selector switch 8 . When the selector switch 8 is operated, the polarity of the pair of comb-shaped electrodes 3 is switched. The selector switch 8 is operated when the object 6 is to be held for a long period by being attracted, and this operation prevents an "electret" effect from occurring, which results in a decrease in the attraction of the attraction layer 2 , etc. The adhesive layer 4 is made of a highly insulating material, the volume resistance of which is 10 ¹⁴ Ω cm or more.

The coating material layer 5 is formed by applying a plastic material, the oxygen permeability and the water vapor permeability of which is low, to the surface of the attraction layer 2 by means of coating or laminating, the plastic material being selected from a group which contains the following substances: double-sided polyester; Nylon 6, acrylonitrile copolymer; Vinylidene chloride-methyl acrylate copolymer; Polyvinyl chloride; Polybutylene terephthalate; Ethylene vinyl alcohol copolymer (EVOH); Polyvinylidene chloride (PVDC) coated with drawn polypropylene; Polyvinylidene chloride coated with drawn nylon; and polyvinylidene chloride coated with polyester. In this case, the volume resistivity of the coating material layer is 5 10 ¹⁰ Ω cm or more and is preferably in a range of 10 ¹⁰ to 10 ¹³ Ω cm, and the thickness of the coating material layer is 5 to 50 µm. Table 1 shows the oxygen permeability and vapor permeability of various polymer films. In this table, those materials which were selected in accordance with the exemplary embodiment for forming the coating material layer are designated with "*".

Table 1

The electrostatic attraction notice board system 1 having the structure described above is fitted in a rectangular support frame 9 as shown in FIG. 4 with the adhesive layer 4 facing the inside, and the structure described above is together with the support frame 9 a stand 10 assembled in the operational state. The electrostatic attraction notice board system 1 can be fixed or hung on a wall using a mounting bracket or the like, instead of being mounted on the stand 10 . FIG. 4 also shows a power supply unit 11 which has a power supply switch (not shown) and the selector switch 8 .

According to this embodiment, the front surface of the attracting sheet 2 is coated with the coating material layer 5 which is formed from a plastic material having a low oxygen permeability and low steam permeability, whereby even if the electrostatic attracting notice board system 1 is in use and the object 6 to attracting the front surface of the attraction layer 2 for a long period of time, deterioration of the attraction layer 2 due to oxidation can be prevented. In addition, because the coating material layer is formed as a thin film with a thickness of 5 to 50 μm and a volume resistance of the attraction layer 2 of 10 ¹¹ to 10 ¹⁴ Ω cm, an electric field caused by the electrodes 3 generates a sufficient polarization charge over the entire attraction layer 2 and the coating layer 5 viewed from a microscopic point of view, so that the system 1 exerts a sufficient attraction on an object 6 .

If the volume resistance of the coating material layer falls below 10 ¹⁰ Ω cm, the interior of the coating material layer 5 becomes conductive and then no more polarization charge is generated therein. On the other hand, if the volume resistance of the coating material layer exceeds 10 ¹³ Ω cm, a pronounced "electret" effect takes place in the coating material layer, which leads to a reduction in the attraction force.

Although the thickness of the coating material layer 5 is in the range of 5 to 50 μm according to this embodiment, the thickness is not limited to this range, but can be varied according to the thickness of the attraction layer.

Although the volume resistivity of the coating material layer is 5 10 ¹⁰ to 10 ¹³ Ω cm according to this embodiment, if a coating material layer is formed from a thin film of about 5 to 50 µm, a satisfactory result can be obtained even if the volume resistivity of the coating material layer is 10¹⁴ to Is 10¹⁷ Ω cm.

Although the foregoing embodiment was provided with an attraction layer 2 formed from a single layer of only one type of plastic, it is also possible to form the attraction layer 2 from a mixture of two or more types of plastics, which are composed of the above Group of plastics with polyester and so on are selected, and the attraction layer 2 may consist of two or more individual layers. Similarly, the attraction material layer 5 may be formed from a mixture of two or more types of plastics selected from the above-mentioned group of plastics comprising the double-sided polyester, etc., and may be composed of two or more individual layers.

In the case where the attraction layer 2 and the coating material layer 5 are composed of two or more individual layers, all of the individual layers which form the layer 2 or layer 5 can be produced from the same plastic or from different plastics, or alternatively some of the individual layers be made of the same plastic material while others are made of a different plastic material. The term "plastic", as used above, is of course also representative of a "mixture of plastics".

Claims (17)

1. Electrostatic attraction notice board system with:

• (a) an attraction layer consisting of a thin-walled dielectric substance;
• (b) a coating material layer ( 5 ) which is formed on a front surface of the attraction layer ( 2 ) such that it covers the front surface, the coating material layer ( 5 ) having only a low water permeability and good shielding properties against the penetration of oxygen; and
• (c) at least one pair of electrodes ( 3 ) which are arranged on the other side of the attraction layer ( 2 ) such that the electrodes ( 3 ) are electrically separated from one another and together form a lamella-like structure in order to generate an electric field and thus causing a polarization charge in the attraction layer ( 2 );

wherein an object, which was disposed on the front of the attracting sheet (2), can be tightened over the intervening hard coating material layer (5) by means of a Coulomb force and held. 2. The electrostatic attraction notice board system according to claim 1, wherein the volume resistance of the attraction layer ( 2 ) is in a range of 10 ¹¹ to 10 ¹⁴ Ω cm. 3. The electrostatic attraction notice board system according to claim 1, wherein the attraction layer ( 2 ) is composed of one or more layers. 4. The electrostatic attraction notice board system according to claim 3, wherein the attraction layer ( 2 ) is composed of a single layer and is molded from a plastic material. 5. Electrostatic attraction notice board system according to claim 3, wherein in the event that the attraction layer ( 2 ) is composed of 2 or more individual layers, all layers are composed of the same plastic material or different plastic materials, or some of the individual layers of the same plastic material consist, while others are made of a different plastic material. 6. Electrostatic attraction notice board system after Claims 3 or 4, wherein the plastic material certain type of plastic or a plastic mixture is which consists of two or more specific types of Composed of plastics, the particular plastic or the specific plastics are selected from a group, which are made of polyester, polyvinyl chloride, acrylic, Contains polycarbonate, polyacetal, phenolic or epoxy resin. 7. Electrostatic attraction notice board system after Claims 4 or 5, wherein the plastic material therein contains dispersed small particles of conductive material, wherein the conductive material or the conductive materials from a group consisting of carbon black, gold, silver, Tin, zinc oxide, conductive oxides and conductive ionic resins was selected. 8. The electrostatic attraction notice board system according to claim 1, wherein the coating material layer ( 5 ) consists of one or more individual layers. 9. Electrostatic attraction notice board system after Claim 8, wherein in the event that the Coating material layer consists of a single layer, the coating material layer made of a plastic material is made. 10. An electrostatic attraction note board system according to claim 8, wherein the coating material layer ( 5 ) consists of two or more individual layers, wherein all individual layers are made of the same plastic material or different plastic materials or some individual layers are made of the same plastic material while others are made of a different one Plastic material are made. 11. The electrostatic attraction notice board system according to claims 1 or 2, wherein the coating material layer has a volume resistance of 10 ¹⁰ Ω cm or more. 12. Electrostatic attraction notice board system after Claim 11, wherein the coating material layer has a thickness of 5 to 50 microns. 13. Electrostatic attraction notice board system after Claims 9 or 10, wherein the plastic material from a certain plastic or consists of a mixture of there are two or more specific types of plastic material, the particular type of plastic material or the mixture of certain types of plastic material from the group of the following certain types of plastic material selected or assembled is: polyester, nylon 6, acrylonitrile copolymer, Vinylidene chloride-methyl acrylate copolymer, polyvinyl chloride, Polybutylene terephthalate, ethylene-vinyl alcohol copolymer, Polyvinylidene chloride coated with drawn polypropylene; Polyvinylidene chloride coated with drawn nylon; and Polyvinylidene chloride coated with polyester. 14. The electrostatic attraction notice board system according to claim 1, wherein an insulating layer ( 4 ) is arranged on one side of the pair of electrodes ( 3 ), this side being the opposite rear side with respect to the side facing the attraction layer ( 2 ). 15. An electrostatic attracting notice board system according to claim 14, wherein the insulating layer (4) is formed of an insulating adhesive layer (4). 16. The electrostatic attraction notice board system according to claims 14 or 15, wherein the insulating layer ( 4 ) has a volume resistance of 10 ¹⁴ Ω cm or more.